US3159877A

US3159877A - Machines for the extrusion of casings, conduits or shaped sectional members of reinforced material

Info

Publication number: US3159877A
Application number: US235210A
Authority: US
Inventors: Orsini Rene
Original assignee: PLASTUS S A SA
Current assignee: PLASTUS S A SA
Priority date: 1962-11-05
Filing date: 1962-11-05
Publication date: 1964-12-08
Anticipated expiration: 1981-12-08

Description

Dec. 8, 1964 R. oRslNl 3,159,877

MACHINES FOR THE EXTRUSION OF' CASINGS, CONDUITS OR SHAPED SECTIONAL MEMBERS OF REINFORCED MATERIAL Filed Nov. 5, 1962 2 Sheets-Sheet l IN VEA/Ton RENE S//v/ ATTORNEY,

Dec. 8, 1964 R. oRslNl 3,159,877

MACHINES FOR THE EXTR :oN oF cAsINGs. coNDuI 0R SHAPED SECTIONAL ME RS OF REINFORCED MATE L Filed Nov. 5, 1962 2 Sheets-Sheet 2 l///AQF i I/v VEN ro R R15/VE Ons /N/ ATTOBNE y United States Patent O 3,159,877 MACHINES FR THE EXTRUSIGN F CASENGS, CGNDUHS 0R SHAPED SECTINAL MEMBERS 0F RENFORCED RQATERIAL Ren Orsini, Geneva, Switzerland, assigner to Societe Anonyme Plastus SA., Geneva, Switzerland, a corporation of Switzeriand Filed Nov. 5, 1962, Ser. No. 235,210 6 Claims. (Cl. 18-13) The present invention relates to machines for the extrusion of casings, conduits, or shaped sectional members, of reinforced material, plastic or otherwise. In these machines the reinforcement of the casing constituded by a tube or sheath of woven textile fabric or metal wire, must be Iinserted by its rear part into the extruder and pass around the guiding and VCalibrating mandrel located in the axis of the extruder. Y

It is necessary, in these machines, to hold the mandrel thus disposed in the casing, which mandrel is subjected to a considerable force tending to drive it forwards, which force is due to the friction of the extruded material.

To solve this problem the only solution known up to the present consists in extending the mandrel rearwardly by a rigid tail or prolongation around which the reinforcing sheath passes, and in providing at least two sets of spaced apart clamping members or jaws which clamp alternately the said prolongation and the sheath, a length of sheath, at least equal to twice the length of tube extruded in the same time, being passed during the opening of each set of jaws, from the upstream to the downstream of each set and stored in the folded state.

Such a device requires a manual operation to pass the sheath from upstream to down stream `of the jaws and is useless with sheaths of metallic wire which can only be folded with difficulty for storage.

The present invention has for its object to overcome these drawbacks by avoiding manual operation for advancement of the sheath and permitting feeding with a relatively rigid sheath.

According to the invention, the mandrel is extended by a tail at least one of the surfaces of which forms an angle with the longitudinal direction of the mandrel, this surface bearing against an exterior supporting surface which holds in longitudinal position the surface forming an angle of the tail, the sheath passing between the said two surfaces and its forward movement preferably'being facilitated by arolling contact with at least the surface of the tail. v

According to a lirst embodiment, the tail of the mandrel forms an arc equal to or greater than 90 so as to constitute a hook co-operating with a supporting surface constituted by a cylinder. part of the tail of the mandrel coming in contact with the :surface of the cylinder is preferably provided with cylinders, endless bands, or rolling devices which include rollers, to avoid friction of the sheath on the tail, the supporting cylinder preferably being rotated to ensure the forward movement of the sheath.

The supporting* cylinder is, preferably, mounted in trunnions of which the'longitudinal position with respect to the extruder is adjustable to effect the adjustment of the mandrel in the extruder and to facilitate the positioning of the sheath on to the retaining device.

According to a second embodiment, the tail of the mandrel has pyramidal or angled surfaces, two opposed faces of which are disposed against the faces of the two blocking jaws of complementary shape. The surfaces of Contact between the'sheath and the pyramidal 0r angled surface of the tail of the mandrel, on the one hand, and

l the retaining jaw, on the other hand, are preferablyrprovided with rolling surfaces.

In such an arrangement the 'e According to a third embodiment, the tail of the mandrel is provided with rollers on two opposed faces and with these rollers co-operate rollers carried by retaining jaws, the rollers of the retaining jaws engaging partially between the rollers of the mandrel tail, with the sheath between them, so as to obtain a longitudinal component for the contact pressure between rollers.

According to an improvement of this third embodiment, Van endless band passes between the rollers of the retaining jaw and the sheath, and the endless bands of the two opposed jaws are positively driven to ensure the forward movement of the sheath.

There will be described hereafter various embodiments of machines according to the invention for the extrusion of casings of reinforced material, with reference to the accompanying drawings in which:

FIG. 1 is a longitudinal sectional view of an extruder and of a retaining device for positioning the mandrel of the extruder in both longitudinal directions;

FIG. 2 is a modification of the device of FIG. l with the retaining device acting in one longitudinal direction only;

FIG. 3 is a diagrammatic view of a device with angled surfaces on the tail of the mandrel;

FIG. 4 is a detail view of the tail of the mandrel and of the retaining jaw in the case of a supporting device operating by rollers, and

FIG. 5 is a view in section along V-V, FIG. 4.

The extruder is of any known type and comprises a body 1 in which is mounted a nozzle 2 the section of which decreases towards the outlet and which opens into a die 3 held at the end of the body by a clamping ring 4 held in position by screwsS. At its inner end the nozzle 2 abuts a perforated plate 6 which positions a cylindrical central core 7. On theY interior of the core the body 9 of the mandrel can move longitudinally with a clearance just suicient for the passage of the reinforcing sheath S. The body 9 cairiesby means of a rod 10, the mandrel proper 11 located at the centre of the die 3 and which determines the thickness of the extruded plastic casing. Between the body 9V and the mandrel 11, around the rod 10, the sheath S is supported by a cylindrical member 12 having slots 13 and terminating at the front to lleave a clearance with lthe mandrel to permit the plastic material, injected through the head 14, which has passed the perforated plate 6, to enter the nozzle 2 to pass through the material ofthe reinforcing sheath, to pene- 'trate to the space around the rod 10 and'to feed the zone between the mandrel 11 and the sheath 8 so as to form, with the plastic material which passes through the die 3, the reinforced plastic casing 15.

Such extruders are known and have been previously described. e

In order to maintain the body 9 of the mandrel in place so that the mandrel proper 11 is located in the terminal portion of the die 3, and according to the invention, the body 9 is made in one, by a connector 16, with a tail 17. The said tail 17 is constituted in the embodiment by a rod which is divided to form two parallel strips 13 curved into the form of an S in the radial vertical plane of the die. Between these strips are mounted, at

two substantially diametrically opposite points of each hook of the S, cylinders 19. The said strips carry in addition, between each pair of cylinders 19,3guiding cylinders 20. An endless band 21 passes *around` the cylinders V19 and on the exterior of the cylinders 20. Between each pair of cylinders 19 and on the exteriorrof the loop, guiding plate 22 are provided, made integral with the strips and of the band 21 supported by the cylinders 19. In

such hook of the tail is mounted a cylinder 24 carried by trunnions 25 slidably mounted in their bearings 26 and subjected to the action of a regulating screw 27-which tends to force the cylinder intoy the associated loop of the S.

It will be: understood that the. sheath 8 supplied from a feed roller 28, can be threaded onto the tail, its ilexibility in all cases being suilcieut to follow the formations of the-S of the tail; the radius of curvature may moreover be modified according to particular requirements by modifying the radius of curvature of the said hooks and of the corresponding cylinders 24. When the thus threaded sheath is inserted into the extruder, the position of the mandrel can be adjusted by clamping and unclamping respectively the screws 27 which act in opposite directions and ensure the longitudinal movement of the mandrel in both directions. The traction effort exerted on the mandrel isimparted by theY rollers A19 and the endless band 21 over all the surface of the' sheath held between said band and the cylinder 2.4. No hold-up can take place since the cylinders 24k can be driven in rotation.

In the embodiment of FIG. 2 the tail 17 forms` a body 29 of semi-circular hook shape, the section of which is such that it can be engaged in the sheath with aslight clearance. In the inner part of this body 29 is formed aV cage constituted by two semi-circular runways, one exterior 30 and the other interior 31, the runwayl 31 beingopen towards the interior ofV the hook. These two runways are connected by arci-shaped incli'nes 32 and in the continuous cage thus formed Iare placed small cylinders 33 forming needles the diameter of which is such that theyv pass freely in the incline, 32 and project slightly with respect toY the. inner edge of the. body=29V when'they` are supported on the; faceV of the partition 34 limiting the sector 31 of the cage. `vA cylinder 35 is mountedby trunnions 36 on the interior of the; hook 29, these trunnions themselves being mounted to sliderin a support 37 and subjected to the action of a regulating' thrust screw 3S act.-

ing parallel to. the axis of the tail 17 in a direction op` posed to the pull of the mandrel on this tail. The sheath 8 is threaded between the cylinder 35 and thelbody 29 of the tail 1T and is gripped betweentthe rollers 33 and the cylinder 35; i Y Y During lthe operation the. cylinder 35 can. be positively driven to cause: the sheath to be moved forward by the surface in contact,"which causes the cylinders 33. to roll in the ascendingv direction against the kinner face of the partition 34. On arrival at the. summitol the Cage the cylinders 33 can. fallv back. by their own weight, being guided by the part` 30 of the cage.

' In the embodiment of FIG. 3, the body 9 of the. mandrel is extended by a tail 39 which has two enlargements 40, these enlargements being of pyranlidal' or angle, shape so that their maximum sectiony can fit the interior of the sheath. On the exterior, two pairs of positioningabutments'41 are provided, the abutments of each pair cofoperating with opposite faces of theV` angle enlargements 46.

The positioning abutments 41 are-kept in position by pillars 42 provided with regulating means,rfor example tapped ringsY 43 co-operating with screw-threads on said pillars to adjustv the position of the jaws 41 with respect to the body of the die. The sheath' epasses.Y at the periph ery of the angle enlargementsattl between these latterand the positioning abutments 41.

To avoid friction and binding of the sheath, the bear- Y ing'surfaces of theangle enlargements 40 andof Ythe abutments 41 are. provided with vrolling members,Y endless bandsorthelilre.` Y According to another embodiment showninFIGS. 4' and 5 the tail-44` which prolongs the body `9-`o`f^the mandrel.k has a rectangular section less than the section ofthe sheath` 8 and it has on two opposed faces; recesses V45.]l

In these recesses are housed cylinders 461 and 47. which are kept in place and rotatably mounted in lateral .walls 48. -These cylinders project slightly above the corresponding lateral `faces of thertailr44/ and the sections of 4i the said tail and of the lateral walls are such, with respect to the Aperipherical development of the sheath, that this latter can be threaded on to the assembly. The positioning jaws 49carry, on their face opposite the v recesses i5 of the mandrel tail, a series ofl cylinders 50 rotatably mounted and the spacing of which is such that they bear according to a generatrix on the cylinders 46 of the tail 44, the cylinder 50a bearing bothy on a generatrix of the cylinder 46 and on a generatrix of the cylinder 47 to avoid the rearward movement of the mandrel. Besides and preferably, over the cylinders 50 and V50a passes an endless band 51 which, by return rollers 52, is passed to a cylinder 53 which is integral with a toothed wheel or a'pulley 54, permitting the positive drive of the band. When the cylinders 50 of the positioning jaws 49 are bearing on the cylinders 46-47 of the tail 44, the planes passing through the axes of the

cylinders

46 and 50 have an inclination of about 45 to the longitudinal plane so as to obtain a large longitudinal component of the forces with respect to the gripping between the positioning jaws, without subjecting the sheath to a too great undulating formation. Y

' The embodiments described above by way of example may receive numerous modications without departing from the scope of the present invention.

WVhat I claim is f l. A machine for the extrusion of shaped sectional members of plastic material having a reinforcing sleeve embedded in a thermoplastic material comprisingan extrusion headhaving a longitudinal bore, a mandrel mounted within said bore with a clearance between said mandrel and said bore for the reception of said sleeve, a die in the front of said bore Witha clearance between said die and said bore for the reception of said sleeve, means connecting said die to the front of said mandrel, a bar carried by the rear end of said mandrel, a hook shaped part in said bar, rolling means on the inside of said hook shaped part, said'bar, hook shaped part and rolling means being adapted to be enveloped` by said reinforcing sleeve, a cyl.- inder the radius of Ywhich issubstantimly equal toy the radius of `the inside of said hook shaped part and cooperatf ing withthe said rollingy means of the shaped part for supporting said bar. 2. A machine for the Yextrusion of shaped sectional members as claimed in claim l in which thevcylinder is positively'driven. v

3. A machine for the. extrusion of shaped sectional members of plastic material having a reinforcing sleeve embedded in a thermoplastic material comprising` an ex-A trusion'headrhaving a longitudinal bore, a mandrel mounted within said bore withavclearancebetween said mandrel and said bore for the reception of said sleeve, a die in the front of said bore with a clearance between said die and said bore 'for the reception of said sleeve, means connecting said die. to the'fron't of said mandrel, a bar carried by the rear end of said mandrel, a S shaped part in said bar, rol-ling means on the inside of both hook shaped portions of said S shaped part, said bar, S shaped part and rolling means being adapted to be enveloped-by said reinforcing sleeve, two cylinders the radius of which is substantially cach hook shapedV portion for supporting said bar.

4. A machine for the .extrusion v.of shaped sectionalv front'of saidbore with al clearance between said die and.V said bore v.for ythe reception of said sleeve, means connect-v ing said die to the front of said mandrel, a bar carried by the rear end of saidmandrel, at least one hook shaped partY equal to the radius of the inside of the hooi; shaped por-` tions and cooperating each with the said rolling means of Y in said bar, rolling means on the inside of each hook shaped part, said bar, hook shaped part and rolling means being adapted to be enveloped by said reinforcing sleeve, and rolling means external to said reinforcing sleeve and cooperating with the rolling means on the inside of each hook shaped part for supporting said bar.

6. A machine for the extrusion of shaped sectional members of plastic material having a reinforcing sleeve embedded in a thermoplastic material comprising an eX- trusion head having a longitudinal bore, a mandrel mounted within said bore with a clearance Ybetween said mandrel and said bore for the reception of said sleeve, a die in the front of said bore with a clearance between said die and said bore for the reception of said sleeve, means connecting said die to the front of said mandrei, a bar carried by the rear end of said mandrel, at least one hook shaped part in said bar, rolling means on the inside of each hook shaped part, said bar, hook shaped part and rolling means being adapted to be enveloped by said reinforcing sleeve, and a cylinder the radius of which is sub- 5 Y stantially equal to the radius of the inside of said hook shaped part and cooperating with the said rolling means of the inside of each hook shaped part for supporting said bar.

References Cited by the Examiner UNITED STATES PATENTS 1,548,505 8/25 Becker 18-13 2,418,974 4/47 Henry 18--10 2,600,254 6/52 Lysobey 18-13 2,767,431 10/56 De Laubarede 18-13 2,990,577 7/61 Kraie De Laubarede 18A-14 FOREIGN PATENTS i 15,953 8/05 Great Britain.

MICHAEL v. BRINDISI, Primary Emmi-n WILLIAM J. STEPHENSON, Examifr.

Claims

5. A MACHINE FOR THE EXTRUSION OF SHAPED SECTIONAL MEMBERS OF PLASTIC MATERIAL HAVING A REINFORCING SLEEVE EMBEDDED IN A THERMOPLASTIC MATERIAL COMPRISING AN EXTRUSION HEAD HAVING A LONGITUDINAL BORE, A MANDREL MOUNTED WITHIN SAID BORE WITH A CLEARANCE BETWEEN SAID MANDREL AND SAID BORE FOR THE RECEPTION OF SAID SLEEVE, A DIE IN THE FRONT OF SAID BORE WITH A CLEARANCE BETWEEN SAID DIE AND SAID BORE FOR THE RECEPTION OF SAID SLEEVE, MEANS CONNECTING SAID DIE TO THE FRONT OF SAID MANDREL, A BAR CARRIED BY THE REAR END OF SAID MANDREL, AT LEAST ONE HOOK SHAPED PART IN SAID BAR, ROLLING MEANS ON THE INSIDE OF EACH HOOK SHAPED PART, SAID BAR, HOOK SHAPED PART AND ROLLING MEANS BEING ADAPTED TO BE ENVELOPED BY SAID REINFORCING SLEEVE, AND ROLLING MEANS EXTERNAL TO SAID REINFORCING SLEEVE AND COOPERATING WITH THE ROLLING MEANS ON THE INSIDE OF EACH HOOK SHAPED PART FOR SUPPORTING SAID BAR.